Hydantoins from Alicyclic Ketones and Aldehydes - Journal of the

J. Am. Chem. Soc. , 1954, 76 (1), pp 111–113. DOI: 10.1021/ja01630a030. Publication Date: January 1954. ACS Legacy Archive. Cite this:J. Am. Chem. S...
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Jan. 5, 1954

HYDANTOINS FROM ALICYCLIC KETONES AND ALDEHYDES

with sodium bicarbonate solution and dried. Distillation of the neutral oil in small quantities through a short column gave 600 g. (65% yield) of water-white (N-carballyldioxyethyl) allyl carbamate, b.p. 151-152" at 3 mm., d"r 1.142, n% 1.4630. Anal. Calcd. for C10H150bN: N, 6.11. Found: N, 5.83. Bis-(N,N'-carbally1oxy)-urea.-Phosgene was passed into 202 g. (2 moles) of allyl carbamate at 50-75" during a four-

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hour period. The solid product was filtered off and dissolved in hot ethyl alcohol. Crystallization from alcohol gave 125 g. (55% yield) of bis-(N,N'-carballyloxy)-urea, m.p. 70°. Anal. Calcd. for CoHlzObN2: N, 12.30. Found: N, 11.80. AKRON,OHIO

DEPARTMENT OF CHEMISTRY, UNIVERSITY OF PENNSYLVANIA ]

Hydantoins from Alicyclic Ketones and Aldehydes BY EDWARD S. ROTHMAN AND ALLANR. DAY RECEIVEDJUNE 26, 1953

A series of new hydantoins of the I-, 5- and spiro-5,5-substituted types derived from alicyclic ketones and aldehydes have been synthesized. A stereoisomer of the spirohydantoin derived from I-menthone has been prepared and evidence is presented to demonstrate the optical purity of the isomer obtained from l-menthone. l-l-Menthyl-5,5-diethylbarbituricacid and l-d-bornyl-5,5-diethylbarbituric acid were prepared also.

I t has been found recently that both the spirohydantoin prepared from I-menthone and I-methylurea possessed promising anticonvulsant activity when administered to mice. Subsequent clinical testing, however, showed that they were not useful for controlling convulsions in man.' Menthylurea is a very old compound, but the spirohydantoin from 2-menthone was first reported in 1939.2 Tiffeneau and Beauvallet3 reported that spirohydantoins prepared from cyclopentanone, cyclohexanone and cycloheptanone were ineffective against strychnine-induced spasms while those derived from isophorone and dihydroisophorone were effective. The spirohydantoins prepared from 3,5-dimethyl-, 3-ethyI-j-methyl-, 3-a-furyl5-methyl- and 3-methyl-5-phenylcyclohexanone were reported to have little activity.4 In view of the unlikelihood that the compounds mentioned above are unique in possessing anticonvulsant action or even that they are the best possible compounds of this type, i t was considered desirable to examine the effects of structure modification on activity. Most of the work reported here deals with the preparation of spirohydantoins from alkyl substituted cyclohexanones, for they were believed to be the most promising. Camphorspirohydantoin had not been reported in the literature prior to the present study, although unsuccessful attempts to prepare it from camphor have been reported.6 Camphorspirohydantoin was obtained in good yields when camphorimine was used in place of camphor as the starting material. The use of optically active alkyl-substituted cyclohexanones naturally raises the question of whether isomerization occurs during hydantoin formation. This question has been considered, (1) Private communication from Smith, Kline and French, Philadelphia, Pa. (2) A. R. Day and C. F. Kelly, J. Org. Ckcm., 4, 101 (1939). (3) R. Tiffeneau and M. Beauvallet, Pressc M c d . . 61, 417 (1943). ( 4 ) H. R. Henze, R. C. Wilson and R. W. Townley, THISJOURNAL, 66, 963 (1943). (5) During the course of the present work, H. Hoyer [Bcr., 83, 491 (1950)1 reported the preparation of the spirohydantoin from both d-camphor and dl-camphor. He used the Bucherer procedure a t elevated temperatures and pressures, yields 40-50%.

in the present investigation, only in the case of the spirohydantoin derived from I-menthone. I-Menthone, in which the methyl and isopropyl groups are in the trans configuration, might be expected to give two diastereoisomeric hydantoins. Since attempts to separate the spirohydantoin from I-menthone into diastereoisomeric modifications failed, all fractions melting at 228-229" and [ a r I z 4 ~+11.7" (l.5yoin ethanol), it seems likely that the spirohydantoin is a single individual and not a mixture. Partial racemization of I-menthone by treatment with sulfuric acid6 produced a mixture of cis- and trans-methylisopropylcyclohexanones,that is, I-menthone and d-isomenthone. This mixture of isomeric ketones was converted to the corresponding hydantoins. The latter were readily separated into two fractions by fractional crystallization from ethyl alcohol. The larger and more soluble fraction melted a t 228-229' and was identical with the spirohydantoin from I-menthone. The smaller and less soluble fraction melted a t 233..5-238.5", [aIz4D f5.85" (2% in ethanol). Analyses indicated the compound to be isomeric with the spirohydantoin prepared from I-menthone. The second product must, therefore, be the isomer derived from the d-isomenthone. An optically inactive methone from the Givaudan Corporation gave a spirohydantoin melting a t 2.56.7-258.5". No attempt was made t o separate the product into isomeric forms.' Experimental 1-3-p-Menthylamine.--l-Menthonewas prepared from 1menthol by chromic acid oxidation.* The ketone was converted to the corresponding oxime* and the latter reduced t o the amine by the action of sodium and ethyl alcohol.10 The amine was removed by steam distillation and collected in dilute hydrochloric acid. Evaporation gave 70-76%

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(6) E. Beckmann, Ann., 260, 335 (1889). (7) This compound may be identical with the spirohydantoin prepared by Novelli [Annales asoc. quim. Argenlina, 99, 83 (1941); C. A . , 36, 6576 (1941)l. He reported e m.p. of 257O. ( 8 ) "Organic Syntheses," Coll. Vol. I, John Wiley and Sons, Inc., New York, N. Y.,2nd Ed., p. 340. (9) E. Beckmann, Ann., 260, 325 (1889). (10) R. L. Bateman and A. R. Day, THIS J O U R N A L , 67, 2496 (1935).

yields of the hydrochloride based on the menthol used, uct was dissolved in dilute sodium hydroxide solution and [ a I p D -38.8" (5% in water). treated with decolorizing carbon. The hydantoin was then CMenthy1urea.-The method used previouslylo was modi- precipitated by the addition of dilute hydrochloric acid and fied considerably. T o 65 g. of I-3-p-menthylamine hydro- recrystallized from alcohol, yield SOYO, m . p . 233-234', chloride i u 150 ml. of water was added an equivalent of po[ctIz4D-0.10" (lYO in ethyl alcohol). tassium cyanate (28 g.) . The mixture was allowed to stand Anal. Calcd. for C I ~ H ~ O O ~CN,Z61.25; : H , 8.99; K, for 20 minutes and then warmed to 70" for 30 minutes. 12.49. Found: C, 64.09; H , 9 . 1 7 ; K, 12.36. The resulting gummy solid, a mixture of 1-menthylurea and 3,3,5,5-Tetramethylspiro-(cyclohexane-l,5'-hydantoin) .2 -menthylainmoiiiuni isock-anate, was heated to just above was prepared by the the melting point for 5-10 minutes or until a quiet melt was 3,3,5,5-Tetramethylcyclohexanone 1,4-addition of methylmagnesium iodide to isophoronc14 obtained, whereby the isocyanatc was converted to the urea. The 2-menthj-lurea, obtained on cooling, was recrystallized and converted to the corresponding hydantoin by the Bucherer method, yicld 857,, m.p. 276.7-277.7". from alcohol and water, yield 71.5%, m . p . 136.5-137.5', .Inel. Calcd. for CIZH~OOZKZ: C, 64.25; H, 8.99; S , [ c t . I z 6 ~-80.5' (2y0 in alcohol). 12.49. Found: C,64.23; H , 8.79; N , 12.56. Spiro-(p-menthane-J,5'-hydantoin) or Menthonespirohydantoin) .-The spirohydantoin from l-menthone was pre3-Isopropyl-5-methylspiro-( cyclohexane-l,5'-hydantoin). pared by the Bucherer niethod as reported by Day and -.3-Isopropyl-5-methyl-2-cyclohesen-l-one1~was hydro~ These values are genated without a solvent at 50 Ib. pressure with 2y0 pallaKelly,2 m.p. 227.9-229', [ a I z i+11.7'. somewhat higher than those reported previously. dium-on-alumina as catalyst. The resulting product, 3l-l-(3-p-Menthyl)-hydantoin.-Tengrains (0.175 mole) of isopropyl-5-methylcyclohexanone, was converted to the anhydrous glycolonitrile" was mixed with 25.3 g. of 1-3-p- corresponding hydantoin by the Bucherer niethod. The menthylamine. Heat was evolved and the solution sepa- crude product was dissolved in dilute sodium hydroxide rated into two layers. The crude N-Z-(3-p-menthyl)solution, treated with decolorizing carbon and the hl-danglycinonitrile (the oily layer) was converted to the crystal- toin precipitated by saturating the solution with carbon line hydrochloride by the addition of a slight excess of 207' dioxide. The dried product was dissolved in hot benzene hydrochloric acid. Crystallization is slow unless the solu- and reprecipitated by the addition of petroleum ether, yield tion is seeded. After filtration, the hydrochloride was TO%, m.p. 212-216". washed with ether and dried. The hydrochloride was dis4 n u l . Calcd. for C I ~ H Z O O ?C ~ ,; ~64.25; : H, 8.99; K , solved in water and treated with an equivalent of potassium 12.49. Found: C,64.50; H,8.81; N,12.50. cyanate. After stirring for 20 minutes, the mixture wa? 3-Hexyl-5-methylspiro-(cyclohexane-l,5'-hydantoin) .heated at 70" for 30 minutes. The gummy solid was dis- 3-Hexyl-5-methyl-2-cyclohexen-l-one15 was hydrogenated, solved in 50 ml. of ethrl alcohol and 50 ml. of concentrated as described above, to 3-hexyl-5-methylcyclohexanone, b .p. hydrochloric acid added. Slight warming caused the pre- 276". latter was converted to the corresponding hycipitation of fine crystals of l-l-(3-p-menthyl)-hydantoin, dantoin The by the Bucherer method, yield 807,,m.p. 193yield 1 2 . f ~ 7 ~m, . p . 196-197', \ c t ] * s ~ -38.84' (1.2Y0 in 195O. ethyl alcohol). -1?7ul,. Calcd. for C l j H 2 6 0 2 S ? : C , 67.71: €1, 9.84; S, A n a l . Calcd. for C I ~ H ~ ? O ~ C, - U ~65.52: : H , 9.31; N , 10.59. Found: C,67.85; H , 9 . 9 0 ; E,10.57. 11.76. Found: C, 65.55; H, 0.11; X , 11.63. 3',4'-Dihydrospiro-(hydantoin-5,1'-(2")-naphthalene) l-.i-Bornylhydantoin.-This compound was prepared or a-Tetra1onespirohydantoin.-This compound vias prefrom d-bornylamiiie by the procedure described above for pared from a-tetralone by the Bucherer procedure. The l-l-i:3-p-nirnthyl)-hydantoin. I n this case, the hydantoin crude product separated only after the reaction mixture was separated in crystalline form after the N-d-bornylglycinonitrile hydrochloride in aqueous solution was heated with one allowed to stand for one week. The crude product was recrystallized from hot alcohol by the careful addition of xater, equivaleut of potassium cyanate a t SO" for a short time, yield 30%, m . p . 194.6-196', [ a I z 6+3.:3" ~ (0.7%inethylalcohol). yield 30To,m.p. 237.2-238.2'. . 4 d . Calcd. for C12H1202XZ: C , 66.6,5: €I, 5.60; N, ..lizal. Calcd. for C I ~ H ~ O O ZC, K ~66.07; : H , 8.49; S, 12.95. Found: C , 66.77; H , 5.48; N, 12.85. 11.86. Found: C , 66.24; H , 8.35; T,11.96. This compound was prepared earlier by Novelli7J6 who 1-Cyc1ohexylhydantoin.-Twenty-five grams (0.25 mole) of cyclohexylamine and 14.2 g. (0.25 mole) of dry glycolo- reported an 80yo yield and a m.p. 237-239". Spiro-(hydantoin-5,3 '-pinme) or Pinocamphonespirohyuitrile werc mixed with cooling. The N-cyclohexylglycinonitrile so obtained was dissolved in the calculated amount dantoin.-p-Pinene, b.p. 55O at 15 mm., [alz4D-14.3' (370 in ethyl alcohol), was oxidized with selenium dioxide :LCof dilute hydrochloric acid and a n equivalent amount of potassium cyanate added gradually to the cold solution. cording t o the directions of Stallcup and H a w k i ~ i s . ' ~TWO products were obtained, myrtenal, b.p. 62.8-63'at 2.2 ~ n n i . , .ifter standing for one hour, the N-cyclohexyl-S-carbamido[aIz4nf0.90" (2y0 in ethyl alcohol), and pinocarvone, b.1). glycinoriitrile was removed, and washed with cold mater ~ (3y0in ethyl alcohol). and dried, yield 19.8 g., 44Y0. Ten grams of this material 74-74.5' at 5 mm., [ a I z 4+61.6' The pinocarvone was hydrogenated to pinocamphone using was dissolved in 50 nil. of ethyl alcohol and -50 nil. of hydrochloric acid added. After a short time 1-c~-clohexylhydan- palladium-on-alumina as catalyst. After removing the catalyst, the reduced product was converted, without purifitoin separated, yield 9 g. (goyo),111.p.182.7-184.2". cation, to the corresponding spirohydantoin by the Buchercr Anal. Calcd. for CgH140 C , 59.32; H , 7.74; N , method. After 8 hours of heating a t 5 2 O , the mixture was 15.38. Found: C , 59.17; H , 7.94: S,15.37. poured into vater and allowed t o stand until the oily laycr Spiro-(p-menthane-2,5'-hydantoin) or Carvomenthone- solidified. The sulid was removed and treated ivith petrospirohydantoin.--il commercial sample of carvone, p-menleum ether to remove oily impurities. The rcsiduc was thadicne-1,8-one-G, b.p. 231", ? Z * ~ D1.4974, [ c t I z 3 ~ -3.16' treated with a solution of dilute sodium hydroxitlc i i i ethyl (27' in ethyl alcohol), was used ab starting tnnteri:il. Car- alcohol and the insoluble material renlovctl b y filtratioli. voiic (12.3 g.) i n 80 ml. of dry ethanol was rapitill- hydro- Addition of hydrochloric acid t o the filtrate protlucetl :L genated (10 minutes) a t 50 Ib. pressure using 2% palladiumcolorless precipitate which was recrystallized from :rlcohol. on-alumina as catalyst. Only two equivalents of hydrogen yield 20OjO0.The compound deconiposed abovc 300' but were absorbed. The resulting carvomenthone could have did not melt. contained only a small amount of carvacrol,1e as indicated A n d . Calcd. for CuHlsOsS2: C, 64.84; 11, 8.16; N , by the physical constants, 12% 1 .4050°,[ct]23n-17.08' (3% 12,(i1. Foiititl: C , 65.04; 11, 7.08; S , 12.70. in ethyl alcohol), :11id the high toiivvrsions to carvomenthoneSpiro-(camphane2 ,5'-hydantoin) or Camphorspirohydanspirohq-dantoin . Cnrvomenthoiie WLI\ converted to t h e hydantoin by the method of Bucherer.13 The mixture wvas toin: -dI-Camphor oxime (72 g.) wxs dissolved in .Xo ml. heated at 52' for 10 hours, diluted with 800 ml. of n-ater, of ether in a large separatory funnel. Sulfuric acid, 30 allowed t o stand for 2 hours and filtrred. The crude prod- __ .____ ( 1 4 ) '\I

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I!I41) (13: Supplied b y Dr. 13. C . H o m i n g . Kovelli. C. A , 37, 2820 (1943). \I-, I). SLallcul~and J , E. Hawkini,

( 1 I ) Obtained f r o m t h e Arrlrricall Cyuiiuriiiil CciInpany. (12) K. S. Hughesdon, H. G. Smith a n d J. Read, J . Chent. S u c , 123, 2916 (1923): h f . Busch and H. S t o v e . R e v , 49, 1063 (1916). 1 1 3 ) H. 'I Bucherer and W . Steincr. .I ,Wiikl C/!oJi., !?I 140, 2!41

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Jan. 5 , 1954

HYDANTOINS FROM ALICYCLIC KETONES AND ALDEHYDES

g. in 20'% aqueous solution and 50 g. of sodium nitrite were added and the mixture was carefully shaken. AS soon as the ether layer became deeply colored, it was transferred to a beaker where colorless crystals of camphorimine nitrate separated, yield 11.2 g., m.p. 144.5-145'. The melting point of camphorimine nitrate from d-camphor has been reported as 158-159".18 Camphorimine nitrate, 8.5 g., 5 g. of potassium cyanide and 20 g. of ammonium carbonate in 200 ml. of ethyl alcohol were heated a t 52" for 5 hours. The camphorspirohydantoin separated in almost pure form. I t was recrystallized from aqueous alcohol, yield 86%, m.p. 265.6266 . B o . .-1nnL. Calcd. for Cl2H1802N2: C, 64.81; H , 8.16; N, 12.61. Found: C , 64.92; H , 8.08; N, 12.54. 6',6'-Dimethylspiro-(hydantoin-5,2'-nopinone) or Nopinonespirohydant0in.-This hydantoin was prepared from nopinone'9 by the Bucherer procedure and recrystallized from alcohol and water, yield 75%, m.p. 275.7-276.5', [ a . I 3 '-15.00' ~ (1% in ethyl alcohol). Anal. Calcd. for CllHlaOzNz: C, 63.43; H , 7.74; F, 13.45. Found: C, 63.35; H , 7.66; N, 13.25. 2-A '-C yclohexenylspiro-( cyclohexane-l,5 '-hydantoin) 2-A'-Cyclohexenylcyclohexanone was prepared from cyclohexanone.20 The pure product boiled a t 122' a t 6 mm. Twenty grams of this ketone was dissolved in aqueous alcohol and treated by the Bucherer procedure. i\fter 5 hours at 52', the solution was poured into 800 ml. of water. .4fter standing overnight, the oily crystals were removed, dissolved in alcohol and the non-acidic material precipitated by the addition of dilute sodium hydroxide solution. This mixture was heated with decolorizing carbon until a clear filtrate was obtained. The addition of dilute hydrochloric acid precipitated a reddish solid. The color was removed as follows: the solid was covered with a little benzene and, while warming, enough ethanol added to just dissolve the precipitate. A small amount of water was added to produce a second phase and a large excess of petroleum ether added to the warm mixture. The spirohydantoin separated as colorless crystals, while the aqueous layer retained the color, yield 6 g., m.p. 243-244'. Anal. Calcd. for C I ~ R ? O O Z SC, ? : 67.72; H, 8.03; S , 11.29. Found: C,67.73; H , 8 . 1 2 ; S , 11.28. 2-Cyclohexylspiro-(cyclohexane-1,5 '-hydantoin) .-Cyclohexenylcyclohexanone was hydrogenated without a solvent using palladium-on-alumina as the catalyst. The resulting 2-cyclohexylcyclohexanone was converted to the corresponding spirohydantoin by the Bucherer method. The product was recrys:allized from alcohol and water, yield 4570, m.p. 258-258.2 . A n d . Calcd. for C 1 ~ H ~ ~ O ~ C, N g 67.16; : H, 8.83; N, 11.19. Found: C, 67.34; H , 8.99; K,11.23.

.-

(18) F. Tiemann, Ber., 28, 1060 (18931, F. Mahla a n d F. Tiemann, ibid., 29, 2607 (1896); J. Houben and E. Pfankuch, ibid., 60, 586, 595 (1927). (19) 0. Wallach, A n n , 386, 227 (1907); du P o n t , Bull Insl. pin., 262 (1929). (20) hf. H. Gault, M. L. Daltroff and J. Ecktridon, Bull. soc. chin., [6] 12, 962 (1946).

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5-(6,6-Dimethylbicyclo [3.1.1]-Z-hepten-Z-yl)-hydantoin. --Myrtenal ( 5 . 5 9.) was converted to the corresponding hydantoin by the Bucherer method. The product was recrystallized from 70% alcohol, yield 8O%, m.p. 266.5-267'. .4nal. Calcd. for C12H1602S2: C, 65.41; H , 7.32; N, 12.73. Found: C, 68.82; H , 7.16; X, 12.71. 5-(6,6-Dimethylbicyclo[3.1.1 .]hept-2-y1)-hydantoin.Myrtenal, 6.3 g., was hydrogenated to myrtanal in the presence of palladium-on-alumina. The myrtanal was then converted to the corresponding hydantoin by the Bucherer method. The crude product was dissolved in alcohol and a yellow, resinous material precipitated by the addition of dilute sodium hydroxide. Addition of hydrochloric acid to the filtrate gave the desired hydantoin. It was recrystallized from methanol, yield 75%, m.p. 229.5-231.5'. -4naZ. Calcd. for CIZHI~O."~: C , 64.81; H , 8.16; N, 12.61. Found: C, 65.00; H , 8.07; S , 12.37. 3,3,5-Trimethylspiro-~cyclohexane-l,5'-hydantoin) .-3 ,:;,5-Trimethylcyclohesanecarboxaldehyde,20.7 g.,?' was coni,erted to the corresponding hydantoin by the Bucherer method. I t was rccrysrillized, with difficulty, from alcohol and water, yield25S;b, m.p. 231.5'. .4nal. Calcd. for C12H2402Xz: C, 64.24; H , 8.99; N, 12.49. Found: C, 61.38; H , 8.70; K, 12.68. l-Z-Menthyl-5,5-diethylbarbituricAcid.-Z-Menthylurea, 25 g., was condensed with ethyl diethylmalonate in dry ethanol with sodium ethoxide as catalyst. The alcohol was removed by slow distillation and the residue heated a t 110115' for 8 hours. The residue was shaken with 150 ml. of water and the two layers which formed were separated. The red oily layer was extracted with dilute hydrochloric acid and the extract added to the original aqueous layer. On standing for 24 hours, 4 g . of product separated. More was obtained by the slow evaporation of an alcoholic solution of the red oil. The total product was dissolved in dilute sodium hydroxide, filtered, reprecipitated with hydrochloric acid and recrystallized from alcohol, yield 12 g . , D (2.5% in ethyl alcohol). m.p. 117-118", [ C Y ] ~ ~-11.6' Anal. Calcd. for Ci3H3003X2:C , 67.29; H, 9.21; S , 8.68. Found: C, 67.04; H , 9 . 3 8 ; S , 8.69. 1-Bornyl-5,s-diethylbarbituricAcid.-To 5 g. of sodium dissolved in dry ethanol was added 8 2 g. of d-bornylurea" and 9 ml. of ethyl diethylmalonate dissolved in ethanol. The alcohol was removed by slow distillation and the residue heated a t 102' for 4 hours. The residue was worked up in the same way as described for the 1-menthylbarbiturate, yield 4 g., m.p. 136-136.5", [ C Y ] ~ D+8.60° (2.44% in ethyl alcohol).

Acknowledgment.-The authors with to express their appreciation to Leonard T. Capell, Associate Editor of Chemical Sbstracts, for the nomenclature which he suggested and which was used in this paper. PHILADELPHIA 4, PESXA (21) L. Givaudan et Cie (Soc. a n o n ) , French Patent 832,163, Sept. 22, 1938; H. Barbier, H e l v . Chiin. Acta, 23, 519 (1940).